Two weeks ago Entergy Corp. (ETR) won a bitter fight with the State of Vermont to keep the East Coast state's only nuclear power plant open. The reactor sits near Brattleboro, Vermont on the southern tip of the state near Massachusetts. The reactor was a Mark 1 boiling water reactor (BWR) design, similar to the reactors that melted down at Fukushima after being struck by an earthquake and tsunami flooding.

But in an ironic twist Entergy decided to shut down the reactor anyway, acknowledging the financial barriers facing the plant's continued operation.

Entergy scored a pyrrhic win in its battle to keep the Yankee Nuclear Power Station open.
[Image Source: AP]

Entergy in a press release said that it expected the plant to about "break even" this year fiscally, but could lose as much as $50M USD per year on average over the next several years. By shuttering the plant, Entergy plans to save $150M to $200M USD in total costs by 2017. However, it has already taken a charge of $181M USD on the shuttering plan, and expects an addition $55M to $60M USD in costs relating to employee pension and severance.

Most of the plant's 630 employees -- plus an undisclosed number of contractors -- will be terminated, although a skeleton crew will be kept on during the plant's decommissioning -- a process which could last for decades if Entergy has its way.

Bill Mohl, president of Entergy Wholesale Commodities, comments, "Simply put, this decision was based on economics."

II. Nuclear Power is Struggling Financially

While nuclear fuel is relatively inexpensive, plant maintenance is not trivial; for example since Entergy acquired the Yankee plant in 2002, it has spent $400M USD -- or roughly $40M USD -- on upkeep. When you pile on the cost of lengthy legal battles with "green" minded activist parties on the local and state level, nuclear isn't quite so cheap.

To add insult to injury, nuclear -- which receives a stick from the government (on a state level at least) via legal fees -- has to compete with alternative energy like wind and solar that are lavished with tax credits and other incentives on a state and federal level. As Entergy puts it:

Wholesale market design flaws that continue to result in artificially low energy and capacity prices in the region, and do not provide adequate compensation to merchant nuclear plants for the fuel diversity benefits they provide.

And not everyone is sad about that. Vermont Governor Peter Shumlin (D) commented:

Entergy's announcement today confirms what we have known for some time. Operating and maintaining this aging nuclear facility is too expensive in today’s world. Vermont utilities no longer have contracts with Vermont Yankee, and our regional grid is not reliant upon it for stability. Vermont has made clear its desire to move toward more sustainable, renewable sources of electricity, and many of our surrounding states are doing likewise.

Vermont Yankee was built with an expectation that it would operate for a limited period of years. While it is no secret that Vermont and Entergy have disagreed on how long that should be, it is now clear that Vermont Yankee is a part of the energy past, and will not be a part of our energy future.

The state says it will work to provide resources to the displaced workers.

Protesters picket Yankee power plant back in 1986. [Image Source: AP]

The cost of decommissioning the Yankee plant is estimated $566M USD; fortunately Entergy during the plant's profitable years established a trust which today is worth $582M USD and growing.

A growing controversy exists regarding the aging reactor's decommissioning cycle. Entergy is asking the NRC to allow it to put the reactor in "safe-storage" -- an up to 60-year period to allow the reactor to cool down before completing the decommissioning. Sen. Bernie Sanders (I-Vermont) disagrees with the plan and says he will challenge it, stating, "Entergy must go through a decommissioning process as soon as possible."

In addition to potential dangers of uncooled nuclear waste, decommissioning the plant too soon could impact Entergy financially by giving its trust less time to mature.

That shift has helped the government escape criticism for giving solar and wind power handouts that it won't give nuclear power. It has also driven some states to try to kick out aging nuclear plants -- including Vermont.

Of the 104 reactors in 65 commercial plants in 31 states in the U.S., twenty-three -- or roughly a fourth -- are 40 years old or older. Another forty-two reactors are 30 years old or older. These older reactors tend to not only be the least efficient -- causing them to struggle more to compete with cheap fossil fuel power and artificially cheap alternative energy -- they also require more in maintenance.

Over half of U.S. reactors are over 30 years old. [Image Source: Corbis]

Currently the nation gets about 20 percent of its power from nuclear energy. But that could dip to 10 percent or less within a decade if the older plants are decommissioned and there's little new growth.

So far this year five reactors have been scheduled for decommissioned. Three of them -- San Onofre 2 and 3 near San Diego and Crystal River 3 in Florida -- had underwent botched maintenance efforts and would have required expensive repairs. And the Yankee plant had mounting legal costs.

V. Handful of New Projects Can't Keep Pace With Shutdowns

But one of the reactors -- the Kewaunee Power Generating Station in Kewaunee, Wisconsin shut down "purely for economic reasons" due to the falling price of natural gas. Owner Dominion Resources, Inc. (D) had kept the reactor -- a more efficient 556 MW pressurized water reactor (PWR) design -- well maintained and had little in the way of current legal issues.

That’s the one that’s probably most ominous. It’s as much a function of the cost of the alternatives as it is the reactor itself. Kewaunee not only didn’t have a major screw-up in repair work, it didn’t even seem to be confronting a major capital investment.

With the five closures, the nation's number of reactors is expected to dip to 99 by next year -- the lowest level in decades.

Nine other license applications are under review, according to an NRC page. However, the recent industry tribulations are apparent from that page; eight other license requests were abandoned (marked "suspended") for various reasons -- in many cases costs. Licenses typically take five years or more to obtain.

China is already building a number of AP1000s, even as the U.S. nuclear industry wanes.
[Image Source: Westinghouse]

The rate of construction clearly isn't keeping up with closures. And that has some wondering whether nuclear power in the U.S. is destined for a slow ride off into the twilight, killed by cheap fossil fuels, alternative energy protectionism, and zealous "environmentalist" litigation.

I live in Colorado, where summers are about 90F, but I also live in a 1986 (the pinnacle of cheap apartment building) third floor apartment with a black roof in a state that has over 300 sunny days per year. In the summer, it can get over 110F in my apartment without the A/C or my computers running. I know that because I tried it for the month of June. It would take over 6 hours to get the apartment back down to 80F at night. It's not much fun to come home to an apartment that's 110F and not be able to sleep until after midnight because it is so hot. (I'm actually moving in September to a newer, 2nd floor, 1 bedroom apartment, and that should keep the A/C bills down. It's also in another city and on another electric grid with a different company.) Also, I keep my A/C set to 80F in this place because I wanted to keep the electricity bill down. On top of all that, Excel started doubling the electricity rate, at the request of the Denver city council, for people who used over a certain amount, and I'm always on that list. So, yeah, there are reasons for my high electricity bill.

However, I still used the same rate of electricity when I was in my previous second floor 1 bedroom apartment, kept at 70F, with two Core i7 900 series computers, one with dual GTX470 video cards and the other with 8 hard drives and a raid controller. I reduced my computer power consumption, but moved to an apartment that requires much more A/C usage to keep cool enough to live in.